This experiment was conducted to improve the performance of chickens by the precise separation and analysis of chromosomes which are integrated genetic materials, and by the use of gene manipulation techniques. Following are the main results obtained. 1. When the chromosomes were separated through the leucocyte culture and analyzed by Giemsa banding techniques (especially by the method in which 20 layers of banding patterns could be found in chromosome ＃1), the normal Patterns of chromosomes ＃l-9 and sex chromosomes, and the location of constitutive heterochromatin without any gene activities in all chromosomes were discovered. 2. To utilize the primodial germ cells (PGC) as the genetic vector which is one of the most important gene manipulation techniques, PGC's from triploid were transplanted to normal host embryos. Since the donor PGC's(3n) were found in the gonads of growing host embryos gene manipulation in poultry using PGC's, seemed to be possible.

This study was conducted to estimate genetic parameters for egg yolk cholesterol. Content of egg yok cholesterol was measured for a total of 473 hens of White Leghorn line. Cholesterol values were obtained from tee consecutively laid eggs when hens were 53 weeks of age. The yolk of each egg was weighted and freeze dried. Dried egg yolks were stored at -2 until analyzed. The results obtained from this study were as follows; 1. Yolk cholesterol content was measured in average mg/g dry yolk. 2. Heritability from the sire component of variance was and from the sire＋dam component of variance . 3. Estimates of phenotypic correlation between your cholesterol and other factors such as body weight at 20 weeks of age, age at first egg, 40-week total egg number, egg Production rate: 53-week egg weight and 53-week yolk weight were -0.0208, -0.0321, -0.0378, -0.0834, 0.0790 and 0.1624, respectively. And genetic correlation coefficients for each item in the order were -0.5293, 0.7105, -0.4062, -0.0254, 0.2164 and 0.5027, respectively. 4. These results suggest the possibility that egg Yolk cholesterol should be reduced through selecting of sire families. To breed for low egg yolk cholesterol, it makes age at first egg earlier and enhances total egg number so that we can obtain the high rate of egg Production.

In order to dull heat sensitivity of egg albumen, metal ions (aluminium, ferric, ferrous, copper) were added and functional properties or egg albumen were determined before and after heat treatment at for 5 minutes. Effect of pH on heat sensitivity of aluminium salt added egg albumen was also determined. Addition of metal ions increased turbidity of egg albumen before and after the heat treatment. Changes of the turbidity were minimized by addition of aluminium salt. The foaming power was markedly increased by addition of ferric salt before the heat treatment and increased by addition of aluminium, ferric and copper salt after the heat treatment. Before the heat treatment the foam was stable by addition of ferric and ferrous salt but after the heat treatment it was stable by addition of aluminium and ferric salt. The turbidity and foaming property of the egg albumen with aluminium salt were not largely changed after the heat treatment at pH range 7 to 8.5. Over pH 9 the turbidity and foaming power were not decreased, but the foam stability was increased before and after the heat treatment. Salmonella typhimurium ATCC 14028 (10 cells/) inoculated in egg albumen at pH range 7 to 8.5 was destructed by the heat treatment.

This study was undertaken to find out the effect of eeg albumen concentration and addition of sugars on the functional properties of egg albumen before and after heat treatment at for 5 minutes. The turbidity was decreased until 8.3% protein concentration but increased as diluted and decreased again below 3.32% protein concentration before and after the heat treatment. The foaming power was peak at 8.3% protein concentration but decreased as diluted before and after the heat treatment. The foam stability was decreased as diluted before and after the heat treatment. The turbidity was not changed by addition of sucrose before the heat treatment and decreased after the heat treatment. The foaming power was decreased by addition of over 5% sucrose before the heat treatment and decreased by addition of over 2.5% sucrose after the heat treatment . The foam stability was increased by addition of over 5% sucrose before the heat treatment and increased by addition of sucrose after the heat treatment. The turbidity was increased by addition of glucose before the heat treatment and not changed after the heat treatment. The foaming power was decreased by the addition of glucose before the heat treatment and decreased by the addition of over 5% glucose after the heat treatment. The foam stability was decreased by the addition of glucose before and after the heat treatment.

Selection of breeds, adequate environment and sanitary condition must be considered to improve production ability. Minimizing of production cost through reasonable management and farm system can introduce maximizing net income. Followings are the summary of poultry industry in Japan： (1) To decreasing consumers Price and to gurantee the quality of eggs, poultry farms changed their farm system as complex which contain feed factory, GP center and processing factory as well as raising laying hens. (2) Broiler farms moved from suburbs to several remote from cites owing to development of transferation , and rising price of land. (3) The egg Price in Japan was depended on season. From fall to spring, the Price was usually rised due to increased consumption, and from May to August the price always dropped. (4) The average production per one you was around 17kg/hen and average feed consumption was around 2.45. Rearing rate was around 98.5% and motality of hens was around 7%. And one person reared 15,000-20,000 hens in over 100 thousand chicken reared farms even though average ability per person showed 3,266 hens.

Several hundred different species of microorganisms have been reported in poultry meat. Many of them are present as a result of contamination from feathers, feet, and intestinal contents of the bird. Equipment and personnel on the processing lines contribute to spreading microorganisms. Walker and Ayres(1956) reported that eviscerated poultry carcasses had 11,000 to 93,000 organisms per sq. cm. Elliott and Michener(1961) reported that off-odors appeared from poultry carcasses when the log number of microorganisms reached 6.5 to 8.0 per st. cm. Slime formation occurred when the number of microorganisms reached a log number of 7.5 to 9.0/. However, Schmidhofer(1969) indicated that bacterial counts gave no conclusive information as to the possible shelf life of poultry meat. (omitted)